Linking ecosystem engineers to soil processes: a framework using the Jenny State Factor Equation

C. G. Jones, J. L. Gutiérrez, P. M. Groffman, M. Shachak

    Research output: Contribution to journalArticlepeer-review

    45 Scopus citations

    Abstract

    Understanding biotic influences on soil processes is a major research frontier made challenging by organismal diversity, variation in distribution, and variety of interactions. Nevertheless, two fundamental influences can be recognized: assimilation/dissimilation (uptake, metabolism, wastes, death) and physical ecosystem engineering (non-assimilatory/dissimilatory, organismally-induced, structurally-mediated changes in energy and materials in the abiotic environment). Because many organisms can engineer soils, predicting their effects is particularly challenging. Here we use Hans Jenny's State Factor Equation as a flexible, integrative tool for understanding these effects. We distinguish organismal influences via engineering from those of assimilation/dissimilation, explicitly placing engineers into the equation as independent state factors. We then ask: What abiotic state factors does an engineer affect? What relationships among state factors does it change? How does this affect soil processes? Using examples from our work, we illustrate use of this conceptual framework for a physical process-soil erosion; a chemical process-desalination; and a biogeochemical process-denitrification. We show that the framework can be used to: Identify conditions for small or large engineering effects on soil processes; assess engineer impacts on multiple soil processes; compare effects of different engineers on a given soil process; and integrate effects of multiple engineers on a single soil process.

    Original languageEnglish
    Pages (from-to)S39-S53
    JournalEuropean Journal of Soil Biology
    Volume42
    Issue numberSUPPL. 1
    DOIs
    StatePublished - 1 Nov 2006

    Keywords

    • Assimilation/dissimilation
    • Biotic crusts
    • Burrowing crab
    • Chasmagnathus granulatus
    • Climate
    • Conceptual framework
    • Denitrification
    • Desert isopod
    • Desert porcupine
    • Ecosystem engineering
    • Hemilepistus reaumuri
    • Hystrix indica
    • Organisms
    • Parent materials
    • Relief
    • Shrub
    • Soil desalination
    • Soil erosion
    • Soil physical
    • Time
    • ant, geophyte mounds
    • chemical, and biogeochemical processes

    Fingerprint

    Dive into the research topics of 'Linking ecosystem engineers to soil processes: a framework using the Jenny State Factor Equation'. Together they form a unique fingerprint.

    Cite this